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QEMU Virtual NVDIMM
===================
This document explains the usage of virtual NVDIMM (vNVDIMM) feature
which is available since QEMU v2.6.0.
The current QEMU only implements the persistent memory mode of vNVDIMM
device and not the block window mode.
Basic Usage
-----------
The storage of a vNVDIMM device in QEMU is provided by the memory
backend (i.e. memory-backend-file and memory-backend-ram). A simple
way to create a vNVDIMM device at startup time is done via the
following command line options:
-machine pc,nvdimm
-m $RAM_SIZE,slots=$N,maxmem=$MAX_SIZE
-object memory-backend-file,id=mem1,share=on,mem-path=$PATH,size=$NVDIMM_SIZE
-device nvdimm,id=nvdimm1,memdev=mem1
Where,
- the "nvdimm" machine option enables vNVDIMM feature.
- "slots=$N" should be equal to or larger than the total amount of
normal RAM devices and vNVDIMM devices, e.g. $N should be >= 2 here.
- "maxmem=$MAX_SIZE" should be equal to or larger than the total size
of normal RAM devices and vNVDIMM devices, e.g. $MAX_SIZE should be
>= $RAM_SIZE + $NVDIMM_SIZE here.
- "object memory-backend-file,id=mem1,share=on,mem-path=$PATH,size=$NVDIMM_SIZE"
creates a backend storage of size $NVDIMM_SIZE on a file $PATH. All
accesses to the virtual NVDIMM device go to the file $PATH.
"share=on/off" controls the visibility of guest writes. If
"share=on", then guest writes will be applied to the backend
file. If another guest uses the same backend file with option
"share=on", then above writes will be visible to it as well. If
"share=off", then guest writes won't be applied to the backend
file and thus will be invisible to other guests.
- "device nvdimm,id=nvdimm1,memdev=mem1" creates a virtual NVDIMM
device whose storage is provided by above memory backend device.
Multiple vNVDIMM devices can be created if multiple pairs of "-object"
and "-device" are provided.
For above command line options, if the guest OS has the proper NVDIMM
driver (e.g. "CONFIG_ACPI_NFIT=y" under Linux), it should be able to
detect a NVDIMM device which is in the persistent memory mode and whose
size is $NVDIMM_SIZE.
Note:
1. Prior to QEMU v2.8.0, if memory-backend-file is used and the actual
backend file size is not equal to the size given by "size" option,
QEMU will truncate the backend file by ftruncate(2), which will
corrupt the existing data in the backend file, especially for the
shrink case.
QEMU v2.8.0 and later check the backend file size and the "size"
option. If they do not match, QEMU will report errors and abort in
order to avoid the data corruption.
2. QEMU v2.6.0 only puts a basic alignment requirement on the "size"
option of memory-backend-file, e.g. 4KB alignment on x86. However,
QEMU v.2.7.0 puts an additional alignment requirement, which may
require a larger value than the basic one, e.g. 2MB on x86. This
change breaks the usage of memory-backend-file that only satisfies
the basic alignment.
QEMU v2.8.0 and later remove the additional alignment on non-s390x
architectures, so the broken memory-backend-file can work again.
Label
-----
QEMU v2.7.0 and later implement the label support for vNVDIMM devices.
To enable label on vNVDIMM devices, users can simply add
"label-size=$SZ" option to "-device nvdimm", e.g.
-device nvdimm,id=nvdimm1,memdev=mem1,label-size=128K
Note:
1. The minimal label size is 128KB.
2. QEMU v2.7.0 and later store labels at the end of backend storage.
If a memory backend file, which was previously used as the backend
of a vNVDIMM device without labels, is now used for a vNVDIMM
device with label, the data in the label area at the end of file
will be inaccessible to the guest. If any useful data (e.g. the
meta-data of the file system) was stored there, the latter usage
may result guest data corruption (e.g. breakage of guest file
system).
Hotplug
-------
QEMU v2.8.0 and later implement the hotplug support for vNVDIMM
devices. Similarly to the RAM hotplug, the vNVDIMM hotplug is
accomplished by two monitor commands "object_add" and "device_add".
For example, the following commands add another 4GB vNVDIMM device to
the guest:
(qemu) object_add memory-backend-file,id=mem2,share=on,mem-path=new_nvdimm.img,size=4G
(qemu) device_add nvdimm,id=nvdimm2,memdev=mem2
Note:
1. Each hotplugged vNVDIMM device consumes one memory slot. Users
should always ensure the memory option "-m ...,slots=N" specifies
enough number of slots, i.e.
N >= number of RAM devices +
number of statically plugged vNVDIMM devices +
number of hotplugged vNVDIMM devices
2. The similar is required for the memory option "-m ...,maxmem=M", i.e.
M >= size of RAM devices +
size of statically plugged vNVDIMM devices +
size of hotplugged vNVDIMM devices
Alignment
---------
QEMU uses mmap(2) to maps vNVDIMM backends and aligns the mapping
address to the page size (getpagesize(2)) by default. However, some
types of backends may require an alignment different than the page
size. In that case, QEMU v2.12.0 and later provide 'align' option to
memory-backend-file to allow users to specify the proper alignment.
For example, device dax require the 2 MB alignment, so we can use
following QEMU command line options to use it (/dev/dax0.0) as the
backend of vNVDIMM:
-object memory-backend-file,id=mem1,share=on,mem-path=/dev/dax0.0,size=4G,align=2M
-device nvdimm,id=nvdimm1,memdev=mem1
Guest Data Persistence
----------------------
Though QEMU supports multiple types of vNVDIMM backends on Linux,
the only backend that can guarantee the guest write persistence is:
A. DAX device (e.g., /dev/dax0.0, ) or
B. DAX file(mounted with dax option)
When using B (A file supporting direct mapping of persistent memory)
as a backend, write persistence is guaranteed if the host kernel has
support for the MAP_SYNC flag in the mmap system call (available
since Linux 4.15 and on certain distro kernels) and additionally
both 'pmem' and 'share' flags are set to 'on' on the backend.
If these conditions are not satisfied i.e. if either 'pmem' or 'share'
are not set, if the backend file does not support DAX or if MAP_SYNC
is not supported by the host kernel, write persistence is not
guaranteed after a system crash. For compatibility reasons, these
conditions are ignored if not satisfied. Currently, no way is
provided to test for them.
For more details, please reference mmap(2) man page:
http://man7.org/linux/man-pages/man2/mmap.2.html.
When using other types of backends, it's suggested to set 'unarmed'
option of '-device nvdimm' to 'on', which sets the unarmed flag of the
guest NVDIMM region mapping structure. This unarmed flag indicates
guest software that this vNVDIMM device contains a region that cannot
accept persistent writes. In result, for example, the guest Linux
NVDIMM driver, marks such vNVDIMM device as read-only.
Backend File Setup Example
--------------------------
Here are two examples showing how to setup these persistent backends on
linux using the tool ndctl [3].
A. DAX device
Use the following command to set up /dev/dax0.0 so that the entirety of
namespace0.0 can be exposed as an emulated NVDIMM to the guest:
ndctl create-namespace -f -e namespace0.0 -m devdax
The /dev/dax0.0 could be used directly in "mem-path" option.
B. DAX file
Individual files on a DAX host file system can be exposed as emulated
NVDIMMS. First an fsdax block device is created, partitioned, and then
mounted with the "dax" mount option:
ndctl create-namespace -f -e namespace0.0 -m fsdax
(partition /dev/pmem0 with name pmem0p1)
mount -o dax /dev/pmem0p1 /mnt
(create or copy a disk image file with qemu-img(1), cp(1), or dd(1)
in /mnt)
Then the new file in /mnt could be used in "mem-path" option.
NVDIMM Persistence
------------------
ACPI 6.2 Errata A added support for a new Platform Capabilities Structure
which allows the platform to communicate what features it supports related to
NVDIMM data persistence. Users can provide a persistence value to a guest via
the optional "nvdimm-persistence" machine command line option:
-machine pc,accel=kvm,nvdimm,nvdimm-persistence=cpu
There are currently two valid values for this option:
"mem-ctrl" - The platform supports flushing dirty data from the memory
controller to the NVDIMMs in the event of power loss.
"cpu" - The platform supports flushing dirty data from the CPU cache to
the NVDIMMs in the event of power loss. This implies that the
platform also supports flushing dirty data through the memory
controller on power loss.
If the vNVDIMM backend is in host persistent memory that can be accessed in
SNIA NVM Programming Model [1] (e.g., Intel NVDIMM), it's suggested to set
the 'pmem' option of memory-backend-file to 'on'. When 'pmem' is 'on' and QEMU
is built with libpmem [2] support (configured with --enable-libpmem), QEMU
will take necessary operations to guarantee the persistence of its own writes
to the vNVDIMM backend(e.g., in vNVDIMM label emulation and live migration).
If 'pmem' is 'on' while there is no libpmem support, qemu will exit and report
a "lack of libpmem support" message to ensure the persistence is available.
For example, if we want to ensure the persistence for some backend file,
use the QEMU command line:
-object memory-backend-file,id=nv_mem,mem-path=/XXX/yyy,size=4G,pmem=on
References
----------
[1] NVM Programming Model (NPM)
Version 1.2
https://www.snia.org/sites/default/files/technical_work/final/NVMProgrammingModel_v1.2.pdf
[2] Persistent Memory Development Kit (PMDK), formerly known as NVML project, home page:
http://pmem.io/pmdk/
[3] ndctl-create-namespace - provision or reconfigure a namespace
http://pmem.io/ndctl/ndctl-create-namespace.html
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